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<a name="Addressing-Modes"></a>
<p>
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<hr>
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<h3 class="section">17.13 Addressing Modes</h3>
<p><a name="index-addressing-modes-4370"></a>
<!-- prevent bad page break with this line -->
This is about addressing modes.
<div class="defun">
&mdash; Macro: <b>HAVE_PRE_INCREMENT</b><var><a name="index-HAVE_005fPRE_005fINCREMENT-4371"></a></var><br>
&mdash; Macro: <b>HAVE_PRE_DECREMENT</b><var><a name="index-HAVE_005fPRE_005fDECREMENT-4372"></a></var><br>
&mdash; Macro: <b>HAVE_POST_INCREMENT</b><var><a name="index-HAVE_005fPOST_005fINCREMENT-4373"></a></var><br>
&mdash; Macro: <b>HAVE_POST_DECREMENT</b><var><a name="index-HAVE_005fPOST_005fDECREMENT-4374"></a></var><br>
<blockquote><p>A C expression that is nonzero if the machine supports pre-increment,
pre-decrement, post-increment, or post-decrement addressing respectively.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>HAVE_PRE_MODIFY_DISP</b><var><a name="index-HAVE_005fPRE_005fMODIFY_005fDISP-4375"></a></var><br>
&mdash; Macro: <b>HAVE_POST_MODIFY_DISP</b><var><a name="index-HAVE_005fPOST_005fMODIFY_005fDISP-4376"></a></var><br>
<blockquote><p>A C expression that is nonzero if the machine supports pre- or
post-address side-effect generation involving constants other than
the size of the memory operand.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>HAVE_PRE_MODIFY_REG</b><var><a name="index-HAVE_005fPRE_005fMODIFY_005fREG-4377"></a></var><br>
&mdash; Macro: <b>HAVE_POST_MODIFY_REG</b><var><a name="index-HAVE_005fPOST_005fMODIFY_005fREG-4378"></a></var><br>
<blockquote><p>A C expression that is nonzero if the machine supports pre- or
post-address side-effect generation involving a register displacement.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>CONSTANT_ADDRESS_P</b> (<var>x</var>)<var><a name="index-CONSTANT_005fADDRESS_005fP-4379"></a></var><br>
<blockquote><p>A C expression that is 1 if the RTX <var>x</var> is a constant which
is a valid address. On most machines the default definition of
<code>(CONSTANT_P (</code><var>x</var><code>) &amp;&amp; GET_CODE (</code><var>x</var><code>) != CONST_DOUBLE)</code>
is acceptable, but a few machines are more restrictive as to which
constant addresses are supported.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>CONSTANT_P</b> (<var>x</var>)<var><a name="index-CONSTANT_005fP-4380"></a></var><br>
<blockquote><p><code>CONSTANT_P</code>, which is defined by target-independent code,
accepts integer-values expressions whose values are not explicitly
known, such as <code>symbol_ref</code>, <code>label_ref</code>, and <code>high</code>
expressions and <code>const</code> arithmetic expressions, in addition to
<code>const_int</code> and <code>const_double</code> expressions.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>MAX_REGS_PER_ADDRESS</b><var><a name="index-MAX_005fREGS_005fPER_005fADDRESS-4381"></a></var><br>
<blockquote><p>A number, the maximum number of registers that can appear in a valid
memory address. Note that it is up to you to specify a value equal to
the maximum number that <code>TARGET_LEGITIMATE_ADDRESS_P</code> would ever
accept.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_LEGITIMATE_ADDRESS_P</b> (<var>machine_mode mode, rtx x, bool strict</var>)<var><a name="index-TARGET_005fLEGITIMATE_005fADDRESS_005fP-4382"></a></var><br>
<blockquote><p>A function that returns whether <var>x</var> (an RTX) is a legitimate memory
address on the target machine for a memory operand of mode <var>mode</var>.
<p>Legitimate addresses are defined in two variants: a strict variant and a
non-strict one. The <var>strict</var> parameter chooses which variant is
desired by the caller.
<p>The strict variant is used in the reload pass. It must be defined so
that any pseudo-register that has not been allocated a hard register is
considered a memory reference. This is because in contexts where some
kind of register is required, a pseudo-register with no hard register
must be rejected. For non-hard registers, the strict variant should look
up the <code>reg_renumber</code> array; it should then proceed using the hard
register number in the array, or treat the pseudo as a memory reference
if the array holds <code>-1</code>.
<p>The non-strict variant is used in other passes. It must be defined to
accept all pseudo-registers in every context where some kind of
register is required.
<p>Normally, constant addresses which are the sum of a <code>symbol_ref</code>
and an integer are stored inside a <code>const</code> RTX to mark them as
constant. Therefore, there is no need to recognize such sums
specifically as legitimate addresses. Normally you would simply
recognize any <code>const</code> as legitimate.
<p>Usually <code>PRINT_OPERAND_ADDRESS</code> is not prepared to handle constant
sums that are not marked with <code>const</code>. It assumes that a naked
<code>plus</code> indicates indexing. If so, then you <em>must</em> reject such
naked constant sums as illegitimate addresses, so that none of them will
be given to <code>PRINT_OPERAND_ADDRESS</code>.
<p><a name="index-g_t_0040code_007bTARGET_005fENCODE_005fSECTION_005fINFO_007d-and-address-validation-4383"></a>On some machines, whether a symbolic address is legitimate depends on
the section that the address refers to. On these machines, define the
target hook <code>TARGET_ENCODE_SECTION_INFO</code> to store the information
into the <code>symbol_ref</code>, and then check for it here. When you see a
<code>const</code>, you will have to look inside it to find the
<code>symbol_ref</code> in order to determine the section. See <a href="Assembler-Format.html#Assembler-Format">Assembler Format</a>.
<p><a name="index-g_t_0040code_007bGO_005fIF_005fLEGITIMATE_005fADDRESS_007d-4384"></a>Some ports are still using a deprecated legacy substitute for
this hook, the <code>GO_IF_LEGITIMATE_ADDRESS</code> macro. This macro
has this syntax:
<pre class="example"> #define GO_IF_LEGITIMATE_ADDRESS (<var>mode</var>, <var>x</var>, <var>label</var>)
</pre>
<p class="noindent">and should <code>goto </code><var>label</var> if the address <var>x</var> is a valid
address on the target machine for a memory operand of mode <var>mode</var>.
<p><a name="index-REG_005fOK_005fSTRICT-4385"></a>Compiler source files that want to use the strict variant of this
macro define the macro <code>REG_OK_STRICT</code>. You should use an
<code>#ifdef REG_OK_STRICT</code> conditional to define the strict variant in
that case and the non-strict variant otherwise.
<p>Using the hook is usually simpler because it limits the number of
files that are recompiled when changes are made.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>TARGET_MEM_CONSTRAINT</b><var><a name="index-TARGET_005fMEM_005fCONSTRAINT-4386"></a></var><br>
<blockquote><p>A single character to be used instead of the default <code>'m'</code>
character for general memory addresses. This defines the constraint
letter which matches the memory addresses accepted by
<code>TARGET_LEGITIMATE_ADDRESS_P</code>. Define this macro if you want to
support new address formats in your back end without changing the
semantics of the <code>'m'</code> constraint. This is necessary in order to
preserve functionality of inline assembly constructs using the
<code>'m'</code> constraint.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>FIND_BASE_TERM</b> (<var>x</var>)<var><a name="index-FIND_005fBASE_005fTERM-4387"></a></var><br>
<blockquote><p>A C expression to determine the base term of address <var>x</var>,
or to provide a simplified version of <var>x</var> from which <samp><span class="file">alias.c</span></samp>
can easily find the base term. This macro is used in only two places:
<code>find_base_value</code> and <code>find_base_term</code> in <samp><span class="file">alias.c</span></samp>.
<p>It is always safe for this macro to not be defined. It exists so
that alias analysis can understand machine-dependent addresses.
<p>The typical use of this macro is to handle addresses containing
a label_ref or symbol_ref within an UNSPEC.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: rtx <b>TARGET_LEGITIMIZE_ADDRESS</b> (<var>rtx x, rtx oldx, machine_mode mode</var>)<var><a name="index-TARGET_005fLEGITIMIZE_005fADDRESS-4388"></a></var><br>
<blockquote><p>This hook is given an invalid memory address <var>x</var> for an
operand of mode <var>mode</var> and should try to return a valid memory
address.
<p><a name="index-break_005fout_005fmemory_005frefs-4389"></a><var>x</var> will always be the result of a call to <code>break_out_memory_refs</code>,
and <var>oldx</var> will be the operand that was given to that function to produce
<var>x</var>.
<p>The code of the hook should not alter the substructure of
<var>x</var>. If it transforms <var>x</var> into a more legitimate form, it
should return the new <var>x</var>.
<p>It is not necessary for this hook to come up with a legitimate address,
with the exception of native TLS addresses (see <a href="Emulated-TLS.html#Emulated-TLS">Emulated TLS</a>).
The compiler has standard ways of doing so in all cases. In fact, if
the target supports only emulated TLS, it
is safe to omit this hook or make it return <var>x</var> if it cannot find
a valid way to legitimize the address. But often a machine-dependent
strategy can generate better code.
</p></blockquote></div>
<div class="defun">
&mdash; Macro: <b>LEGITIMIZE_RELOAD_ADDRESS</b> (<var>x, mode, opnum, type, ind_levels, win</var>)<var><a name="index-LEGITIMIZE_005fRELOAD_005fADDRESS-4390"></a></var><br>
<blockquote><p>A C compound statement that attempts to replace <var>x</var>, which is an address
that needs reloading, with a valid memory address for an operand of mode
<var>mode</var>. <var>win</var> will be a C statement label elsewhere in the code.
It is not necessary to define this macro, but it might be useful for
performance reasons.
<p>For example, on the i386, it is sometimes possible to use a single
reload register instead of two by reloading a sum of two pseudo
registers into a register. On the other hand, for number of RISC
processors offsets are limited so that often an intermediate address
needs to be generated in order to address a stack slot. By defining
<code>LEGITIMIZE_RELOAD_ADDRESS</code> appropriately, the intermediate addresses
generated for adjacent some stack slots can be made identical, and thus
be shared.
<p><em>Note</em>: This macro should be used with caution. It is necessary
to know something of how reload works in order to effectively use this,
and it is quite easy to produce macros that build in too much knowledge
of reload internals.
<p><em>Note</em>: This macro must be able to reload an address created by a
previous invocation of this macro. If it fails to handle such addresses
then the compiler may generate incorrect code or abort.
<p><a name="index-push_005freload-4391"></a>The macro definition should use <code>push_reload</code> to indicate parts that
need reloading; <var>opnum</var>, <var>type</var> and <var>ind_levels</var> are usually
suitable to be passed unaltered to <code>push_reload</code>.
<p>The code generated by this macro must not alter the substructure of
<var>x</var>. If it transforms <var>x</var> into a more legitimate form, it
should assign <var>x</var> (which will always be a C variable) a new value.
This also applies to parts that you change indirectly by calling
<code>push_reload</code>.
<p><a name="index-strict_005fmemory_005faddress_005fp-4392"></a>The macro definition may use <code>strict_memory_address_p</code> to test if
the address has become legitimate.
<p><a name="index-copy_005frtx-4393"></a>If you want to change only a part of <var>x</var>, one standard way of doing
this is to use <code>copy_rtx</code>. Note, however, that it unshares only a
single level of rtl. Thus, if the part to be changed is not at the
top level, you'll need to replace first the top level.
It is not necessary for this macro to come up with a legitimate
address; but often a machine-dependent strategy can generate better code.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_MODE_DEPENDENT_ADDRESS_P</b> (<var>const_rtx addr, addr_space_t addrspace</var>)<var><a name="index-TARGET_005fMODE_005fDEPENDENT_005fADDRESS_005fP-4394"></a></var><br>
<blockquote><p>This hook returns <code>true</code> if memory address <var>addr</var> in address
space <var>addrspace</var> can have
different meanings depending on the machine mode of the memory
reference it is used for or if the address is valid for some modes
but not others.
<p>Autoincrement and autodecrement addresses typically have mode-dependent
effects because the amount of the increment or decrement is the size
of the operand being addressed. Some machines have other mode-dependent
addresses. Many RISC machines have no mode-dependent addresses.
<p>You may assume that <var>addr</var> is a valid address for the machine.
<p>The default version of this hook returns <code>false</code>.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_LEGITIMATE_CONSTANT_P</b> (<var>machine_mode mode, rtx x</var>)<var><a name="index-TARGET_005fLEGITIMATE_005fCONSTANT_005fP-4395"></a></var><br>
<blockquote><p>This hook returns true if <var>x</var> is a legitimate constant for a
<var>mode</var>-mode immediate operand on the target machine. You can assume that
<var>x</var> satisfies <code>CONSTANT_P</code>, so you need not check this.
<p>The default definition returns true.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: rtx <b>TARGET_DELEGITIMIZE_ADDRESS</b> (<var>rtx x</var>)<var><a name="index-TARGET_005fDELEGITIMIZE_005fADDRESS-4396"></a></var><br>
<blockquote><p>This hook is used to undo the possibly obfuscating effects of the
<code>LEGITIMIZE_ADDRESS</code> and <code>LEGITIMIZE_RELOAD_ADDRESS</code> target
macros. Some backend implementations of these macros wrap symbol
references inside an <code>UNSPEC</code> rtx to represent PIC or similar
addressing modes. This target hook allows GCC's optimizers to understand
the semantics of these opaque <code>UNSPEC</code>s by converting them back
into their original form.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_CONST_NOT_OK_FOR_DEBUG_P</b> (<var>rtx x</var>)<var><a name="index-TARGET_005fCONST_005fNOT_005fOK_005fFOR_005fDEBUG_005fP-4397"></a></var><br>
<blockquote><p>This hook should return true if <var>x</var> should not be emitted into
debug sections.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_CANNOT_FORCE_CONST_MEM</b> (<var>machine_mode mode, rtx x</var>)<var><a name="index-TARGET_005fCANNOT_005fFORCE_005fCONST_005fMEM-4398"></a></var><br>
<blockquote><p>This hook should return true if <var>x</var> is of a form that cannot (or
should not) be spilled to the constant pool. <var>mode</var> is the mode
of <var>x</var>.
<p>The default version of this hook returns false.
<p>The primary reason to define this hook is to prevent reload from
deciding that a non-legitimate constant would be better reloaded
from the constant pool instead of spilling and reloading a register
holding the constant. This restriction is often true of addresses
of TLS symbols for various targets.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_USE_BLOCKS_FOR_CONSTANT_P</b> (<var>machine_mode mode, const_rtx x</var>)<var><a name="index-TARGET_005fUSE_005fBLOCKS_005fFOR_005fCONSTANT_005fP-4399"></a></var><br>
<blockquote><p>This hook should return true if pool entries for constant <var>x</var> can
be placed in an <code>object_block</code> structure. <var>mode</var> is the mode
of <var>x</var>.
<p>The default version returns false for all constants.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_USE_BLOCKS_FOR_DECL_P</b> (<var>const_tree decl</var>)<var><a name="index-TARGET_005fUSE_005fBLOCKS_005fFOR_005fDECL_005fP-4400"></a></var><br>
<blockquote><p>This hook should return true if pool entries for <var>decl</var> should
be placed in an <code>object_block</code> structure.
<p>The default version returns true for all decls.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_BUILTIN_RECIPROCAL</b> (<var>unsigned fn, bool md_fn, bool sqrt</var>)<var><a name="index-TARGET_005fBUILTIN_005fRECIPROCAL-4401"></a></var><br>
<blockquote><p>This hook should return the DECL of a function that implements reciprocal of
the builtin function with builtin function code <var>fn</var>, or
<code>NULL_TREE</code> if such a function is not available. <var>md_fn</var> is true
when <var>fn</var> is a code of a machine-dependent builtin function. When
<var>sqrt</var> is true, additional optimizations that apply only to the reciprocal
of a square root function are performed, and only reciprocals of <code>sqrt</code>
function are valid.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_VECTORIZE_BUILTIN_MASK_FOR_LOAD</b> (<var>void</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fMASK_005fFOR_005fLOAD-4402"></a></var><br>
<blockquote><p>This hook should return the DECL of a function <var>f</var> that given an
address <var>addr</var> as an argument returns a mask <var>m</var> that can be
used to extract from two vectors the relevant data that resides in
<var>addr</var> in case <var>addr</var> is not properly aligned.
<p>The autovectorizer, when vectorizing a load operation from an address
<var>addr</var> that may be unaligned, will generate two vector loads from
the two aligned addresses around <var>addr</var>. It then generates a
<code>REALIGN_LOAD</code> operation to extract the relevant data from the
two loaded vectors. The first two arguments to <code>REALIGN_LOAD</code>,
<var>v1</var> and <var>v2</var>, are the two vectors, each of size <var>VS</var>, and
the third argument, <var>OFF</var>, defines how the data will be extracted
from these two vectors: if <var>OFF</var> is 0, then the returned vector is
<var>v2</var>; otherwise, the returned vector is composed from the last
<var>VS</var>-<var>OFF</var> elements of <var>v1</var> concatenated to the first
<var>OFF</var> elements of <var>v2</var>.
<p>If this hook is defined, the autovectorizer will generate a call
to <var>f</var> (using the DECL tree that this hook returns) and will
use the return value of <var>f</var> as the argument <var>OFF</var> to
<code>REALIGN_LOAD</code>. Therefore, the mask <var>m</var> returned by <var>f</var>
should comply with the semantics expected by <code>REALIGN_LOAD</code>
described above.
If this hook is not defined, then <var>addr</var> will be used as
the argument <var>OFF</var> to <code>REALIGN_LOAD</code>, in which case the low
log2(<var>VS</var>) &minus; 1 bits of <var>addr</var> will be considered.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: int <b>TARGET_VECTORIZE_BUILTIN_VECTORIZATION_COST</b> (<var>enum vect_cost_for_stmt type_of_cost, tree vectype, int misalign</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fVECTORIZATION_005fCOST-4403"></a></var><br>
<blockquote><p>Returns cost of different scalar or vector statements for vectorization cost model.
For vector memory operations the cost may depend on type (<var>vectype</var>) and
misalignment value (<var>misalign</var>).
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_VECTORIZE_VECTOR_ALIGNMENT_REACHABLE</b> (<var>const_tree type, bool is_packed</var>)<var><a name="index-TARGET_005fVECTORIZE_005fVECTOR_005fALIGNMENT_005fREACHABLE-4404"></a></var><br>
<blockquote><p>Return true if vector alignment is reachable (by peeling N iterations) for the given type.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_VECTORIZE_VEC_PERM_CONST_OK</b> (<var>machine_mode, const unsigned char *sel</var>)<var><a name="index-TARGET_005fVECTORIZE_005fVEC_005fPERM_005fCONST_005fOK-4405"></a></var><br>
<blockquote><p>Return true if a vector created for <code>vec_perm_const</code> is valid.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_VECTORIZE_BUILTIN_CONVERSION</b> (<var>unsigned code, tree dest_type, tree src_type</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fCONVERSION-4406"></a></var><br>
<blockquote><p>This hook should return the DECL of a function that implements conversion of the
input vector of type <var>src_type</var> to type <var>dest_type</var>.
The value of <var>code</var> is one of the enumerators in <code>enum tree_code</code> and
specifies how the conversion is to be applied
(truncation, rounding, etc.).
<p>If this hook is defined, the autovectorizer will use the
<code>TARGET_VECTORIZE_BUILTIN_CONVERSION</code> target hook when vectorizing
conversion. Otherwise, it will return <code>NULL_TREE</code>.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_VECTORIZE_BUILTIN_VECTORIZED_FUNCTION</b> (<var>tree fndecl, tree vec_type_out, tree vec_type_in</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fVECTORIZED_005fFUNCTION-4407"></a></var><br>
<blockquote><p>This hook should return the decl of a function that implements the
vectorized variant of the builtin function with builtin function code
<var>code</var> or <code>NULL_TREE</code> if such a function is not available.
The value of <var>fndecl</var> is the builtin function declaration. The
return type of the vectorized function shall be of vector type
<var>vec_type_out</var> and the argument types should be <var>vec_type_in</var>.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: bool <b>TARGET_VECTORIZE_SUPPORT_VECTOR_MISALIGNMENT</b> (<var>machine_mode mode, const_tree type, int misalignment, bool is_packed</var>)<var><a name="index-TARGET_005fVECTORIZE_005fSUPPORT_005fVECTOR_005fMISALIGNMENT-4408"></a></var><br>
<blockquote><p>This hook should return true if the target supports misaligned vector
store/load of a specific factor denoted in the <var>misalignment</var>
parameter. The vector store/load should be of machine mode <var>mode</var> and
the elements in the vectors should be of type <var>type</var>. <var>is_packed</var>
parameter is true if the memory access is defined in a packed struct.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: machine_mode <b>TARGET_VECTORIZE_PREFERRED_SIMD_MODE</b> (<var>machine_mode mode</var>)<var><a name="index-TARGET_005fVECTORIZE_005fPREFERRED_005fSIMD_005fMODE-4409"></a></var><br>
<blockquote><p>This hook should return the preferred mode for vectorizing scalar
mode <var>mode</var>. The default is
equal to <code>word_mode</code>, because the vectorizer can do some
transformations even in absence of specialized <acronym>SIMD</acronym> hardware.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: unsigned int <b>TARGET_VECTORIZE_AUTOVECTORIZE_VECTOR_SIZES</b> (<var>void</var>)<var><a name="index-TARGET_005fVECTORIZE_005fAUTOVECTORIZE_005fVECTOR_005fSIZES-4410"></a></var><br>
<blockquote><p>This hook should return a mask of sizes that should be iterated over
after trying to autovectorize using the vector size derived from the
mode returned by <code>TARGET_VECTORIZE_PREFERRED_SIMD_MODE</code>.
The default is zero which means to not iterate over other vector sizes.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: void * <b>TARGET_VECTORIZE_INIT_COST</b> (<var>struct loop *loop_info</var>)<var><a name="index-TARGET_005fVECTORIZE_005fINIT_005fCOST-4411"></a></var><br>
<blockquote><p>This hook should initialize target-specific data structures in preparation for modeling the costs of vectorizing a loop or basic block. The default allocates three unsigned integers for accumulating costs for the prologue, body, and epilogue of the loop or basic block. If <var>loop_info</var> is non-NULL, it identifies the loop being vectorized; otherwise a single block is being vectorized.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: unsigned <b>TARGET_VECTORIZE_ADD_STMT_COST</b> (<var>void *data, int count, enum vect_cost_for_stmt kind, struct _stmt_vec_info *stmt_info, int misalign, enum vect_cost_model_location where</var>)<var><a name="index-TARGET_005fVECTORIZE_005fADD_005fSTMT_005fCOST-4412"></a></var><br>
<blockquote><p>This hook should update the target-specific <var>data</var> in response to adding <var>count</var> copies of the given <var>kind</var> of statement to a loop or basic block. The default adds the builtin vectorizer cost for the copies of the statement to the accumulator specified by <var>where</var>, (the prologue, body, or epilogue) and returns the amount added. The return value should be viewed as a tentative cost that may later be revised.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: void <b>TARGET_VECTORIZE_FINISH_COST</b> (<var>void *data, unsigned *prologue_cost, unsigned *body_cost, unsigned *epilogue_cost</var>)<var><a name="index-TARGET_005fVECTORIZE_005fFINISH_005fCOST-4413"></a></var><br>
<blockquote><p>This hook should complete calculations of the cost of vectorizing a loop or basic block based on <var>data</var>, and return the prologue, body, and epilogue costs as unsigned integers. The default returns the value of the three accumulators.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: void <b>TARGET_VECTORIZE_DESTROY_COST_DATA</b> (<var>void *data</var>)<var><a name="index-TARGET_005fVECTORIZE_005fDESTROY_005fCOST_005fDATA-4414"></a></var><br>
<blockquote><p>This hook should release <var>data</var> and any related data structures allocated by TARGET_VECTORIZE_INIT_COST. The default releases the accumulator.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_VECTORIZE_BUILTIN_TM_LOAD</b> (<var>tree</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fTM_005fLOAD-4415"></a></var><br>
<blockquote><p>This hook should return the built-in decl needed to load a vector of the given type within a transaction.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_VECTORIZE_BUILTIN_TM_STORE</b> (<var>tree</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fTM_005fSTORE-4416"></a></var><br>
<blockquote><p>This hook should return the built-in decl needed to store a vector of the given type within a transaction.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: tree <b>TARGET_VECTORIZE_BUILTIN_GATHER</b> (<var>const_tree mem_vectype, const_tree index_type, int scale</var>)<var><a name="index-TARGET_005fVECTORIZE_005fBUILTIN_005fGATHER-4417"></a></var><br>
<blockquote><p>Target builtin that implements vector gather operation. <var>mem_vectype</var>
is the vector type of the load and <var>index_type</var> is scalar type of
the index, scaled by <var>scale</var>.
The default is <code>NULL_TREE</code> which means to not vectorize gather
loads.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: int <b>TARGET_SIMD_CLONE_COMPUTE_VECSIZE_AND_SIMDLEN</b> (<var>struct cgraph_node *, struct cgraph_simd_clone *, tree, int</var>)<var><a name="index-TARGET_005fSIMD_005fCLONE_005fCOMPUTE_005fVECSIZE_005fAND_005fSIMDLEN-4418"></a></var><br>
<blockquote><p>This hook should set <var>vecsize_mangle</var>, <var>vecsize_int</var>, <var>vecsize_float</var>
fields in <var>simd_clone</var> structure pointed by <var>clone_info</var> argument and also
<var>simdlen</var> field if it was previously 0.
The hook should return 0 if SIMD clones shouldn't be emitted,
or number of <var>vecsize_mangle</var> variants that should be emitted.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: void <b>TARGET_SIMD_CLONE_ADJUST</b> (<var>struct cgraph_node *</var>)<var><a name="index-TARGET_005fSIMD_005fCLONE_005fADJUST-4419"></a></var><br>
<blockquote><p>This hook should add implicit <code>attribute(target("..."))</code> attribute
to SIMD clone <var>node</var> if needed.
</p></blockquote></div>
<div class="defun">
&mdash; Target Hook: int <b>TARGET_SIMD_CLONE_USABLE</b> (<var>struct cgraph_node *</var>)<var><a name="index-TARGET_005fSIMD_005fCLONE_005fUSABLE-4420"></a></var><br>
<blockquote><p>This hook should return -1 if SIMD clone <var>node</var> shouldn't be used
in vectorized loops in current function, or non-negative number if it is
usable. In that case, the smaller the number is, the more desirable it is
to use it.
</p></blockquote></div>
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